CN112609303A - Knitting method of knitting spherical wave-bulging structure and wave-bulging structure thereof - Google Patents

Abstract

The invention discloses a knitting method of a knitting spherical wave-bulging structure and the wave-bulging structure thereof, according to the number of spherical needles and the number of rows of the knitting spherical wave-bulging structure, the three-dimensional structure is partially knitted, and simultaneously, the loops of the back needle bed are knitted, and are sequentially connected by moving needles inwards, so that the two sides are contracted inwards, thereby forming the spherical structure. The spherical wave-bulging structure woven by the weaving method of the knitted spherical wave-bulging structure is more three-dimensional, two sides of the spherical wave-bulging structure are more round and smooth, the surface of the whole structure is naturally transited, a new forming method is provided for weaving of fully-formed clothes, and the content of the wave-bulging structure is enriched.

Description

Knitting method of knitting spherical wave-bulging structure and wave-bulging structure thereof

The technical field is as follows:

the invention relates to the field of knitting, in particular to a knitting method of a knitting spherical wave-bulging structure and the wave-bulging structure thereof.

Background art:

as shown in fig. 2, a schematic view of the back of the stitch development of the conventional knitting granular wave-like structure. The actual length of the dotted line coil length a is equal to the coil length b, the bulging three-dimensional effect is achieved through local weaving of the middle portion, and as shown in the figure, due to the fact that the back side coils of the back side are evenly distributed and pulled, the granular bulging wave is more like a small cylinder structure, two sides of the granular bulging wave are not smooth enough, and development requirements cannot be met.

The invention content is as follows:

the invention aims to solve the technical problem of providing a novel knitting method of a knitting spherical wave-bulging structure, wherein the knitting method of the knitting spherical wave-bulging structure enables two sides of the formed wave-bulging structure to be more round and smooth, and the whole surface is in natural transition.

The technical scheme of the invention is to provide a knitting method of a knitting spherical wave-bulging structure, according to the number of spherical needles and the number of rows of the knitting spherical wave-bulging structure, when a three-dimensional structure is partially knitted, loops of a back needle bed are knitted, and needle shifting connection is carried out inwards in sequence, so that two sides are contracted inwards, and a spherical structure is formed.

Further, the knitting is performed using a flat knitting machine having a pair of or more than one pair of front and back needle beds extending in the left-right direction and facing each other in the front-back direction, comprising the steps of,

step 1: the yarn nozzle carries out left-hand movement to knit the front needle bed coil to the left side of the knitting spherical wave-bulging structure, then carries out right-hand movement to knit the coil in the spherical structure area, and simultaneously carries out needle separation treatment on the other coils except the middle two coils so that the front needle bed and the rear needle bed are hung with the coils at the corresponding needle positions;

step 2: the yarn nozzle is used for weaving a back needle bed in a left-going mode to divide needles to obtain needle position coils, a right-going mode is used for weaving front needle bed coils of a spherical structure area, a left-going mode is used for weaving front needle bed coils of the spherical structure area, a right-going mode is used for weaving front needle bed coils of the spherical structure area, and then two needle position coils on the inner side of a back needle plate are obliquely moved one needle to be turned to the middle of a front needle plate to correspond;

and step 3: the yarn nozzle carries out left-hand knitting on the front needle bed coil of the spherical structure area, the yarn nozzle carries out right-hand knitting on the front needle bed coil of the spherical structure area, the yarn nozzle carries out left-hand knitting on the back needle plate, the remaining part of the back needle plate is hung with a coil needle position coil, then carries out right-hand knitting on the front needle bed coil of the spherical structure area, and then carries out oblique movement on two needle position coils on the outer side of the back needle plate, and turns over the two needles to the;

and 4, step 4: and the yarn nozzle moves left to weave the front needle bed coil to the leftmost side, and the weaving of the spherical drum wave structure is finished.

The invention also provides a spherical wave-bulging structure woven by the weaving method of the spherical wave-bulging structure, compared with a cylindrical wave-bulging structure woven in the prior art, the two sides of the wave-bulging structure are more smooth, and the surface of the whole structure is in natural transition.

Compared with the prior art, the invention has the following advantages after adopting the scheme: the invention can provide a novel knitting method of the spherical drum wave structure, the spherical drum wave structure knitted by the knitting method of the spherical drum wave structure is more three-dimensional, both sides of the spherical drum wave structure are more round and smooth, the surface of the whole structure is in natural transition, a novel forming method is provided for knitting fully-formed clothes, and the content of the drum wave structure is enriched.

Description of the drawings:

FIG. 1 is a schematic view of the back of the knitted spherical wave structure stitch of the present invention.

Fig. 2 is a schematic view of the back side of the stitch development of a conventional knitted granular drum wave structure.

Fig. 3 is a schematic diagram comparing the present invention with the prior art in a flat state of the wave-blowing structure.

Fig. 4 is a schematic diagram of the knitting of the spherical wave structure of the invention.

The specific implementation mode is as follows:

the invention will be further described with respect to specific embodiments in conjunction with the following drawings:

example 1

The invention aims to provide a knitting method of a knitting spherical wave-bulging structure and the spherical wave-bulging structure formed by the knitting method. According to the requirement of the number of the sphere needles of the wave-blowing structure, the back connecting coils are connected in a needle moving mode, so that two sides are contracted inwards, as shown in fig. 1, two sides of the structure are more circularly compliant, and a three-dimensional sphere structure is formed. As shown in fig. 3, compared with the prior art, the drum wave structure of the present invention has a spherical shape as a whole, and a curved surface, and both sides of the drum wave structure are more rounded, and the surface of the whole structure is naturally transited.

Specifically, according to the number of the sphere needles and the number of the rows of the spherical wave-bulging structure, the three-dimensional structure is partially knitted, and simultaneously, the loops of the back needle bed are knitted (as shown by the dotted line part in the middle area of fig. 1), and the stitch transferring connection is sequentially performed inwards, so that the two sides are contracted inwards, and the spherical structure is formed.

In order to facilitate understanding, in the present embodiment, a method for realizing a spherical drum wave structure based on the spherical knitting, as shown in fig. 4, by knitting using a flat knitting machine having a pair of front and back needle beds or a pair of front and back needle beds extending in the left-right direction and facing each other in the front-back direction, includes the steps of,

step 1: the yarn nozzle carries out left-hand movement to knit the front needle bed coil to the left side of the knitting spherical wave-bulging structure, then carries out right-hand movement to knit the coil in the spherical structure area, and simultaneously carries out needle separation treatment on the other coils except the middle two coils so that the front needle bed and the rear needle bed are hung with the coils at the corresponding needle positions;

step 2: the yarn nozzle is used for weaving a back needle bed in a left-going mode to divide needles to obtain needle position coils, a right-going mode is used for weaving front needle bed coils of a spherical structure area, a left-going mode is used for weaving front needle bed coils of the spherical structure area, a right-going mode is used for weaving front needle bed coils of the spherical structure area, and then two needle position coils on the inner side of a back needle plate are obliquely moved one needle to be turned to the middle of a front needle plate to correspond;

and step 3: the yarn nozzle carries out left-hand knitting on the front needle bed coil of the spherical structure area, the yarn nozzle carries out right-hand knitting on the front needle bed coil of the spherical structure area, the yarn nozzle carries out left-hand knitting on the back needle plate, the remaining part of the back needle plate is hung with a coil needle position coil, then carries out right-hand knitting on the front needle bed coil of the spherical structure area, and then carries out oblique movement on two needle position coils on the outer side of the back needle plate, and turns over the two needles to the;

and 4, step 4: and the yarn nozzle moves left to weave the front needle bed coil to the leftmost side, and the weaving of the spherical drum wave structure is finished.

By utilizing the weaving method, a brand new spherical wave-blowing structure can be formed, so that the whole wave-blowing structure is more three-dimensional, two sides of the wave-blowing structure are more round and smooth, the surface of the whole structure is in natural transition, a new forming method is provided for weaving fully-formed clothes, and the content of the wave-blowing structure is enriched. The method breaks through the limitations of the traditional product process method, belongs to the initiative in the industry, plays a certain role in better explaining the design concept and improving the quality, artistic value and aesthetic value of the product, and provides a wider development space for the development and market of the knitted product; in the aspect of industrial practicability, the knitting method can be widely applied to all computerized flat knitting machines, can meet and attract more consumer groups, and promotes the international influence of the knitting industry in China.

The foregoing is illustrative of the preferred embodiments of the present invention only and is not to be construed as limiting the claims. All the equivalent structures or equivalent process changes made by the description of the invention are included in the scope of the patent protection of the invention.

Claims (3)

1. A knitting method of a knitting spherical wave-bulging structure is characterized in that: according to the number of the sphere needles and the number of the rows of the spherical wave-bulging structure, when the three-dimensional structure is partially knitted, the loops of the back needle bed are knitted, and needle shifting connection is performed inwards in sequence, so that two sides are contracted inwards, and the spherical structure is formed.

2. The knitting method of a spherical drum structure according to claim 1, wherein knitting is performed using a flat knitting machine having a pair of or more than one pair of front and back needle beds extending in a left-right direction and facing each other in a front-back direction, characterized in that: comprises the following steps of (a) carrying out,

step 1: the yarn nozzle carries out left-hand movement to knit the front needle bed coil to the left side of the knitting spherical wave-bulging structure, then carries out right-hand movement to knit the coil in the spherical structure area, and simultaneously carries out needle separation treatment on the other coils except the middle two coils so that the front needle bed and the rear needle bed are hung with the coils at the corresponding needle positions;

step 2: the yarn nozzle is used for weaving a back needle bed in a left-going mode to divide needles to obtain needle position coils, a right-going mode is used for weaving front needle bed coils of a spherical structure area, a left-going mode is used for weaving front needle bed coils of the spherical structure area, a right-going mode is used for weaving front needle bed coils of the spherical structure area, and then two needle position coils on the inner side of a back needle plate are obliquely moved one needle to be turned to the middle of a front needle plate to correspond;

and step 3: the yarn nozzle carries out left-hand knitting on the front needle bed coil of the spherical structure area, the yarn nozzle carries out right-hand knitting on the front needle bed coil of the spherical structure area, the yarn nozzle carries out left-hand knitting on the back needle plate, the remaining part of the back needle plate is hung with a coil needle position coil, then carries out right-hand knitting on the front needle bed coil of the spherical structure area, and then carries out oblique movement on two needle position coils on the outer side of the back needle plate, and turns over the two needles to the;

and 4, step 4: and the yarn nozzle moves left to weave the front needle bed coil to the leftmost side, and the weaving of the spherical drum wave structure is finished.

3. A spherical drum wave structure knitted by the knitting method of a knitted spherical drum wave structure according to any one of claims 1 or 2.

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